Cas no 13813-24-6 (Neodymium iodide)

Neodymium iodide (NdI?) is an inorganic compound composed of neodymium and iodine, primarily utilized in specialized chemical and materials research. It serves as a precursor in the synthesis of neodymium-based compounds, particularly in catalytic and optical applications. The high purity of NdI? ensures consistent performance in reactions, while its hygroscopic nature necessitates careful handling under inert conditions. Its utility extends to the production of neodymium-doped materials, where it contributes to tailored luminescent or magnetic properties. Researchers value NdI? for its reactivity and role in advancing rare-earth chemistry, making it a critical reagent in both academic and industrial settings.
Neodymium iodide structure
Neodymium iodide structure
Product Name:Neodymium iodide
CAS No:13813-24-6
MF:I3Nd
MW:524.953422546387
MDL:MFCD00016248
CID:180481
Update Time:2025-08-05

Neodymium iodide Chemical and Physical Properties

Names and Identifiers

    • Neodymium iodide
    • Neodymium iodide (NdI3)
    • Neodymium(III) iodide
    • neodimium acetate
    • neodymium triidode
    • neodymium triiodide
    • NdI3
    • Neodymium(III) triiodide
    • Neodymium iodide anhydrous
    • neodymiumiodide(ndi3)
    • 13813-24-6, MFCD00016248
    • Neodymium(III) iodide,99.9%
    • MDL: MFCD00016248
    • Inchi: 1S/3HI.Nd/h3*1H;/q;;;+3/p-3
    • InChI Key: DKSXWSAKLYQPQE-UHFFFAOYSA-K
    • SMILES: [Nd](I)(I)I

Computed Properties

  • Exact Mass: 522.62100
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 0
  • Hydrogen Bond Acceptor Count: 0
  • Heavy Atom Count: 4
  • Rotatable Bond Count: 0
  • Complexity: 8
  • Covalently-Bonded Unit Count: 1
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Surface Charge: 0
  • Tautomer Count: nothing
  • XLogP3: nothing

Experimental Properties

  • Color/Form: 99.9% purity, green powder
  • Density: 5.850
  • Melting Point: 775 °C (decomposition)
  • Water Partition Coefficient: Soluble in water.
  • Stability/Shelf Life: hygroscopic
  • PSA: 0.00000
  • LogP: 2.65710
  • Sensitiveness: Moisture & Light Sensitive
  • Solubility: Soluble

Neodymium iodide Security Information

  • Symbol: GHS08
  • Signal Word:Danger
  • Hazard Statement: H317,H334,H361
  • Warning Statement: P261,P280,P342+P311
  • Hazardous Material transportation number:NONH for all modes of transport
  • WGK Germany:3
  • Hazard Category Code: 63-42/43
  • Safety Instruction: S22; S36/37; S45
  • Hazardous Material Identification: Xn
  • Risk Phrases:R42/43
  • TSCA:Yes

Neodymium iodide Pricemore >>

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Additional information on Neodymium iodide

Neodymium iodide (CAS No. 13813-24-6): Applications and Recent Research Developments

Neodymium iodide, a compound with the chemical formula NdI?, is a rare earth metal iodide that has garnered significant attention in the field of materials science and chemistry due to its unique properties and potential applications. This compound, identified by its CAS number CAS No. 13813-24-6, is particularly noted for its role in advanced technological applications, including optoelectronics, magnetic materials, and catalysis. The increasing interest in rare earth elements has positioned Neodymium iodide as a key material in modern research and industrial processes.

The synthesis of Neodymium iodide typically involves the reaction of neodymium metal or its oxides with molecular iodine under controlled conditions. The process requires precise temperature control and an inert atmosphere to ensure high purity and yield. The compound's stability under various conditions makes it suitable for a wide range of applications, particularly where thermal and chemical stability are critical factors.

One of the most compelling aspects of Neodymium iodide is its application in the field of optoelectronics. Recent studies have demonstrated its potential use in the development of light-emitting diodes (LEDs) and laser devices. The compound's ability to emit light in the near-infrared spectrum makes it particularly valuable for high-efficiency optical devices. Researchers have been exploring ways to enhance the luminescent properties of Neodymium iodide by doping it with other rare earth elements or by optimizing its crystal structure.

In addition to its optoelectronic applications, Neodymium iodide has shown promise in the realm of magnetic materials. Its unique magnetic properties make it suitable for use in advanced magnetic storage devices and sensors. Studies have indicated that Neodymium iodide can be used to develop materials with high magnetic anisotropy, which is crucial for next-generation data storage technologies. The compound's ability to maintain its magnetic properties at high temperatures also makes it attractive for applications in harsh environments.

The catalytic properties of Neodymium iodide have not been extensively studied, but preliminary research suggests that it could be a valuable catalyst in certain organic reactions. Its large ionic radius and multiple oxidation states allow it to interact with a variety of substrates, potentially making it useful in polymerization reactions or as a ligand in coordination chemistry. Further research is needed to fully understand its catalytic potential and to identify optimal reaction conditions.

Recent advancements in nanotechnology have also opened up new possibilities for Neodymium iodide. Researchers are investigating the synthesis of nanostructured forms of this compound, which could lead to novel applications in drug delivery systems, where size-controlled nanoparticles are essential for targeted therapy. The unique surface properties of nano-sized Neodymium iodide particles may also enhance their performance in catalytic and optoelectronic applications.

The environmental impact of using Neodymium iodide in various applications is another area of concern. While rare earth elements are not classified as hazardous materials, their extraction and processing can have environmental consequences. Efforts are being made to develop more sustainable methods for synthesizing Neodymium iodide, including the use of green chemistry principles and recycling technologies. These efforts aim to minimize the environmental footprint while maintaining the high performance required for industrial applications.

Future research directions for Neodymium iodide include exploring its potential in energy storage technologies, such as solid-state batteries. The compound's ability to form stable compounds with other elements suggests that it could be used as an electrode material or a component in advanced battery designs. Additionally, researchers are investigating its role in photovoltaic cells, where it could contribute to higher efficiency by improving light absorption and charge transport properties.

In conclusion, Neodymium iodide (CAS No. 13813-24-6) is a versatile compound with significant potential across multiple fields, including optoelectronics, magnetism, catalysis, and nanotechnology. Its unique properties make it an attractive material for developing advanced technological solutions. As research continues to uncover new applications and improve synthesis methods, Neodymium iodide is poised to play an increasingly important role in modern science and industry.

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